Physiological traits determining tolerance to intermittent drought in the Capsicum annuum complex

Physiological traits determining tolerance to intermittent drought in the Capsicum annuum complex

•Ability to keep stomata open during intermittent drought increases Capsicum yield.•Chilli yield reductions due to drought are minimized by lower canopy temperatures.•Maintaining higher shoot relative water content increases chilli yield during drought.•Greater rooting depth and reproductive success...

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Bibliographic Details
Published in:Scientia horticulturae Vol. 246; pp. 21 - 33
Main Authors: Malika, L. Yasodhini, Deshabandu, K.S.H. Thilinika, De Costa, W.A. Janendra M., Ekanayake, Saman, Herath, Shalika, Weerakoon, W.M. Wijayasiri
Format: Journal Article
Language:English
Published: Elsevier B.V 27-02-2019
Subjects:
Canopy temperature
Factor analysis
Genotypic variation
Stomatal conductance
Water-stress
WW
Genotypic variation
Factor analysis
Chl
Stomatal conductance
Ψ
Yd
Water-stress
gs
Tc
Canopy temperature
DT
DAT
WS
RWC
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Summary:•Ability to keep stomata open during intermittent drought increases Capsicum yield.•Chilli yield reductions due to drought are minimized by lower canopy temperatures.•Maintaining higher shoot relative water content increases chilli yield during drought.•Greater rooting depth and reproductive success influence drought tolerance in chilli.•Above characters form composite traits that underpin drought tolerance in Capsicum. The use of physiological traits directly-linked to mechanisms of drought tolerance (DT) as selection criteria could accelerate the development of tolerant varieties. To identify such physiological traits in chilli pepper (Capsicum annuum L.), we screened a range of diverse genotypes, a series of parental breeding lines produced from C. annuum and C. frutescens/C. chinense crosses, under well-watered and water-stressed (65% depletion of available soil water) conditions in the field with a movable rainshelter. Water regime x genotype interaction was significant (p < 0.05) in the majority of measured traits, which showed significant genotypic variation under the two water regimes. Stomatal conductance (gs) showed strong positive correlations with yield under both water regimes. Furthermore, relative reduction of gs in response to drought positively correlated with relative yield reduction. Canopy temperature (Tc) showed significant negative correlations with yield in both water regimes. Lower yield reductions due to drought were associated with lower increases of Tc across the genotypes. Similarly, lower reductions in shoot relative water content were strongly correlated to lower yield reductions. Yield under drought (Yd) showed significant positive correlation to maximum rooting depth and dry root weight. Greater flower numbers and conversion of flowers to pods, traits indicating the DT of reproductive processes positively correlated with Yd. Factor Analysis showed that the above physiological, growth and reproductive traits constituted composite traits which underpin DT in chilli. As such, they can be used as screening tools in identifying drought tolerant germplasm in breeding programmes of Capsicum annuum.
ISSN:0304-4238
1879-1018
DOI:10.1016/j.scienta.2018.10.047